James R. Jastifer

Long-term follow-up of mobile bearing total ankle arthroplasty in the United States.

Background: The published long-term follow-up of modern total ankle arthroplasty is limited. We report results after a minimum of 10-year follow-up in a cohort of patients who underwent the Scandinavian Total Ankle Replacement (STAR™) in the United States. Methods: Between 1998 and 2003, 18 patients underwent total ankle arthroplasty for end-stage ankle degeneration and were available for follow-up at a minimum of 10 years postoperatively out of a consecutive series of 41 patients. All surgeries were performed by a single surgeon at a single institution. Clinical, radiographic, and functional examinations were performed. Revision was defined as failure of either the tibial or the talar metallic component. The mean length of follow-up was 12.6 years (range, 10.2 to 14.6). Results: Overall implant survival was 94.4% (17/18). A total of 39% (7/18) required additional surgical procedures, most of which were performed greater than 9 years postoperatively, and 1 required a revision of the prosthesis. Preoperative VAS pain scale scores improved from 8.1 to 2.1 out of 10 at latest follow-up. Mean Buechel–Pappas Scale scores improved from 32.8 to 82.1 and mean AOFAS Ankle-Hindfoot Scale scores improved from 32.8 to 78.1 at latest follow-up. All patients reported their outcome as good or excellent. Conclusion: In the current cohort of STAR ankle patients, implant survival, patient satisfaction, pain relief, and function were high. However, the rate of additional procedures was also high, which highlights the need for patient follow-up and additional long-term outcome studies on total ankle arthroplasty. Level of Evidence: Level IV, cohort study.

Performance of Total Ankle Arthroplasty and Ankle Arthrodesis on Uneven Surfaces, Stairs, and Inclines: A Prospective Study

Background: Both total ankle arthroplasty (TAA) and ankle arthrodesis are options for the treatment of ankle arthritis and have been shown to improve gait postoperatively. Little is known about the postoperative performance of these patients on uneven surfaces. Methods: Between 2010 and 2013, 77 consecutive patients were enrolled in a prospective study and completed 12 months of follow-up. Patients received either a TAA (61 patients) or an ankle arthrodesis (16 patients). Preoperatively, at 6 months and 12 months postoperatively, patients were evaluated clinically and functionally on stairs, an inclined ramp, and an uneven surface. Patients graded their function on these surfaces using a visual analog scale (VAS) in addition to standard clinical grading scales. Results: There was no statistically significant difference between the patient groups preoperatively (all P > .05). Both TAA and ankle arthrodesis groups had high patient satisfaction, 3.5 and 3.4 out of 4.0, respectively. Both groups had improvement in Buechel-Pappas scores, VAS pain scores, AOFAS Ankle Hindfoot scores, and functional scores (all P values < .05). TAA patients had a significantly better outcome than the arthrodesis patients in the Buechel-Pappas scale (P = .036), AOFAS Ankle Hindfoot score (P = .03), ankle dorsiflexion (P < .001), ankle plantarflexion (P < .001), walking upstairs (P = .013), walking downstairs (P = .012), and walking uphill (P = .016). Conclusions: Patients with TAA and ankle arthrodesis had improved performance walking on uneven surfaces at 12 months of follow-up compared to preoperatively. TAA patients had higher scores than the ankle arthrodesis patients walking upstairs, downstairs, and uphill. Level of Evidence: Level II, prospective cohort study.

The effect of clavicle malunion on shoulder biomechanics; A computational study

BACKGROUND Clavicle malunion affects the biomechanics of the shoulder joint. The purpose of this study is to establish the abduction, flexion, and internal (medial) rotation biomechanics of the shoulder after clavicle malunion. METHODS A computational study was performed utilizing a three-dimensional, validated computational model of the upper extremity. Sequential shortening of the clavicle up to 20% was simulated. Muscle forces, moment arms, and moments were calculated for the surrounding musculature through a range of flexion, abduction, and internal rotation during the simulated shortening. FINDINGS Shortening of the clavicle decreases the shoulder elevation moments of the upper extremity muscles during abduction. Internal rotation moments are also decreased with shortening. Flexion moments were affected less through physiologic range of motion. The observed effects are due to a combination of changes in moment arms of the individual muscles as well as a decrease in the force generating capacity of the muscles. Additionally, shortening of the clavicle increases coronal angulation of the clavicle at the sternoclavicular joint. INTERPRETATION Shortening causes a decrease in the moment generating capacity as well as the total force generating capacity of the shoulder girdle muscles. The clinical significance of these computational results, which are consistent with recent clinical studies, is validation of the proposed functional deficit caused by clavicle malunion.

The subtalar joint: Biomechanics and functional representations in the literature

The subtalar joint is important for gait and function of the foot and ankle. With few external landmarks, the joint is difficult to conceptualize and study in vivo. There have been several functional representations put forth in the literature which can be combined to give a broader understanding of the overall function and mechanics of the subtalar joint. This understanding is clinically important when considering the impact that disease has on the subtalar joint as well as how treatment of the subtalar joint impacts on the surrounding structures.

Topical review: locking plate technology in foot and ankle surgery.

The use of locking plate technology in foot and ankle surgery has increased over the last decade. Reported applications include fracture repair, deformity correction, and arthrodesis. There is limited evidence, however, to guide clinicians with regard to the appropriate and optimal use of this technology. This work aims to examine the current biomechanical and clinical evidence comparing locking construct technology to other forms of fixation in the field of foot and ankle surgery.

Prospective Study of Hammertoe Correction With an Intramedullary Implant

Background: Operative correction of a hammertoe deformity is often accomplished by excision of the articular surface of the proximal interphalangeal joint (PIP) and fixation across the joint. This study aimed to prospectively evaluate clinical and radiographic outcomes of hammertoe operative correction utilizing an internal implant and assess its ability to maintain postoperative alignment. Methods: Twenty-nine patients (53 toes) with a painful rigid hammertoe deformity were prospectively enrolled and operatively treated with resection arthroplasty of the PIP joint and fixation with an implant. Five patients were lost to follow-up, and 24 patients (42 toes) returned at an average of 12 months for final clinical and radiographic evaluation. All patients were evaluated pre- and postoperatively by AOFAS and Visual Analog Pain Scale (VAS) scores. On physical exam, the location and magnitude of the deformity, callosities, and digit circumference were recorded. Radiological parameters evaluated were digital alignment, successful union, implant position, and bone reaction. Results: All patients reported satisfaction at final follow-up, with an average improvement of AOFAS score from 52 (range, 24-87 points) to 71 (range, 42-95 points) points. The mean VAS pain score improved from 5 points (range, 2 to 10) preoperatively to 1 point (range, 0 to 5) postoperatively. Of patients, 87% reported an ability to return to their preoperative activities without limitations. Regarding digital alignment, there were no recurrent deformities or transverse plane deformities; 1 toe presented with a minor digital rotational deformity at final follow-up. Postoperative radiographs indicated 100% of proximal interphalangeal (PIP) joints with good alignment, and 81% demonstrated bony union. Conclusion: Our results suggest that utilization of an internal implant for hammertoe correction was safe and provided acceptable alignment, pain reduction, and improved function at final follow-up. Level of Evidence: Level IV, case series.

Subtalar Arthrodesis Alignment The Effect on Ankle Biomechanics

Background: The position, axis, and control of each lower extremity joint intimately affect adjacent joint function as well as whole-limb performance. A review of the literature finds little describing the biomechanics of subtalar arthrodesis and the effect on ankle biomechanics. The purpose of the current study was to establish this effect on sagittal plane ankle biomechanics. Methods: A study was performed using a 3-dimensional, validated, computational model of the lower extremity. A subtalar arthrodesis was simulated from 20 degrees of varus to 20 degrees of valgus. At each arthrodesis position, the ankle dorsiflexor and plantarflexor muscles’ fiber force, moment arm, and moments were calculated throughout a physiologic range of motion. Results: Throughout ankle range of motion, plantarflexion and dorsiflexion strength varied with subtalar arthrodesis position. When the ankle joint was in neutral sagittal alignment, plantarflexion strength was maximized in 10 degrees of subtalar valgus, and strength varied by a maximum of 2.6% from the peak 221 Nm. In a similar manner, with the ankle joint in neutral position, dorsiflexion strength was maximized with a subtalar joint arthrodesis in 5 degrees of valgus, and strength varied by a maximum of 7.5% from the peak 46.8 Nm. The change in strength was due to affected muscle fiber force generating capacities and muscle moment arms. Conclusion: The significance of this study is that subtalar arthrodesis in a position of 5 to 10 degrees of subtalar valgus has a biomechanical advantage. Clinical Relevance: This supports previous clinical outcome studies and offers a biomechanical rationale for their generally favorable outcomes.

Low-level laser therapy for the treatment of chronic plantar fasciitis: A prospective study

Background: Plantar fasciitis affects nearly 1 million people annually in the United States. Traditional nonoperative management is successful in about 90% of patients, usually within 10 months. Chronic plantar fasciitis develops in about 10% of patients and is a difficult clinical problem to treat. A newly emerging technology, low-level laser therapy (LLLT), has demonstrated promising results for the treatment of acute and chronic pain. Methods: Thirty patients were administered LLLT and completed 12 months of follow-up. Patients were treated twice a week for 3 weeks for a total of 6 treatments and were evaluated at baseline, 2 weeks post procedure, and 6 and 12 months post procedure. Patients completed the Visual Analog Scale (VAS) and Foot Function Index (FFI) at study follow-up periods. Results: Patients demonstrated a mean improvement in heel pain VAS from 67.8 out of 100 at baseline to 6.9 out of 100 at the 12-month follow-up period. Total FFI score improved from a mean of 106.2 at baseline to 32.3 at 12 months post procedure. Conclusion: Although further studies are warranted, this study shows that LLLT is a promising treatment of chronic plantar fasciitis. Level of Evidence: Level IV, case series.

Exposure via Sequential Release of the Metatarsophalangeal Joint for Plantar Plate Repair Through a Dorsal Approach Without an Intraarticular Osteotomy

Background: Traditionally, plantar plate repairs have been performed from either a direct plantar approach or through a dorsal approach utilizing an intraarticular metatarsal osteotomy. It is unknown if a plantar plate repair can be reliably performed through a dorsal approach without an osteotomy. Methods: The second through fourth metatarsal phalangeal (MTP) joints of 4 fresh frozen cadavers were sequentially dissected and the exposure of the plantar plate was quantified with a digital micrometer. A suture passer was then utilized to pass a suture through the released plantar plate without a metatarsal osteotomy. Results: The mean plantar plate exposure after capsulotomy was 1.1 mm, after capsulotomy and release of the collateral ligaments exposure was 2.5 mm, after the addition of a release of plantar structures with a McGlamry elevator exposure was 4.1 mm, and after the addition of a plantar plate takedown the exposure was 5.3 mm. Every specimen had a minimum of 4 mm of exposure. Two sutures were successfully passed through every plantar plate with the exposure obtained. Conclusion: Significant improvement in exposure of the plantar plate was achieved with each successive structure released . Clinical Relevance: Successful plantar plate repair can be reliably performed through a dorsal approach without a metatarsal osteotomy in a cadaveric model.

Plantar Plate Repair for Lesser Metatarsophalangeal Joint Instability.

Background: Lesser metatarsophalangeal (MTP) joint instability is a common cause of forefoot pain. Advances in operative technique and instrumentation have made it possible to anatomically treat plantar plate tears through a dorsal approach. Our goal was to evaluate the subjective, functional, and radiographic outcomes of plantar plate repair (PPR) from a dorsal approach. Methods: A prospective case series was performed evaluating the results of PPR in 97 feet with 138 plantar plate tears. Patients underwent PPR from a dorsal approach with a Weil osteotomy. We followed patients at regular intervals for 12 months and collected data preoperatively and postoperatively with respect to visual analog scale (VAS) scores, MTP range of motion (ROM), paper pull-out test, American Orthopaedic Foot & Ankle Society (AOFAS) scores, satisfaction, and radiographic measures. Results: Eighty percent of patients scored “good” to “excellent” satisfaction scores at 12 months. The mean VAS pain score preoperatively was 5.4/10, and postoperatively was 1.5/10. The mean AOFAS scores increased from 49 to 81 points following surgery. The mean MTP ROM preoperatively was 43 degrees and postoperatively 31 degrees. Forty-two percent of toes passed the paper pull out test prior to surgery and 54% at 12 months. Mean metatarsal shortening was 2.4/3.1/1.2 mm for the second, third, and fourth metatarsals, respectively. The mean MTP joint angles preoperatively were 2/4.9/–1.3 degrees and postoperatively were 7.4/9.6/0.2 degrees, respectively, for the second, third, and fourth MTP joints. Conclusion: We found that the plantar plate could be repaired through a dorsal approach with reliable outcomes. PPR was a viable option to anatomically restore the ligamentous support in the unstable lesser MTP joint. Level of Evidence: Level IV, retrospective case series.